Muon spin rotation measurements of the superfluid density in fresh and aged superconducting PuCoGa5

Abstract

We have measured the temperature dependence and magnitude of the superfluid density s(T) via the magnetic field penetration depth λ(T) in PuCoGa5 (nominal critical temperature Tc0 = 18.5 K) using the muon spin rotation technique in order to investigate the symmetry of the order parameter, and to study the effects of aging on the superconducting properties of a radioactive material. The same single crystals were measured after 25 days (Tc = 18.25 K) and 400 days (Tc = 15.0 K) of aging at room temperature. The temperature dependence of the superfluid density is well described in both materials by a model using d-wave gap symmetry. The magnitude of the muon spin relaxation rate σ in the aged sample, σ 1/λ2s/m*, where m* is the effective mass, is reduced by about 70% compared to fresh sample. This indicates that the scattering from self-irradiation induced defects is not in the limit of the conventional Abrikosov-Gor'kov pair-breaking theory, but rather in the limit of short coherence length (about 2 nm in PuCoGa5) superconductivity.